Typical circuit applications: HF/RF Power Amplifiers, Transmitters,
Antenna Tuning, Plasma Chambers and Medical (MRI coils).
ELECTRICAL AND MECHANICAL
SPECIFICATIONS
QUALITY FACTOR (Q):
Greater than 5,000 (3.3 pF to 1000 pF) @ 1 MHz.
Greater than 5,000 (1100 pF to 5100 pF) @ 1 KHz.
TEMPERATURE COEFFICIENT OF CAPACITANCE (TCC):
0 ±30 PPM/°C (-55°C to +125°C)
INSULATION RESISTANCE (IR):
10
5
Megohms min. @ +25°C at rated WVDC
10
4
Megohms min. @ +125°C at rated WVDC
Max. test voltage is 500 VDC.
WORKING VOLTAGE (WVDC):
See Capacitance Values Table, page 2
DIELECTRIC WITHSTANDING VOLTAGE (DWV):
120% of WVDC for 5 seconds..
ENVIRONMENTAL TESTS
ATC 800 E Series Capacitors are designed and manufactured to
meet and exceed the requirements of EIA-198, MIL-PRF-55681 and
MIL-PRF-123.
THERMAL SHOCK:
MIL-STD-202, Method 107, Condition A
MOISTURE RESISTANCE:
MIL-STD-202, Method 106
LOW VOLTAGE HUMIDITY:
MIL-STD-202, Method 103, Condition A, with 1.5 Volts DC applied
while subjected to an environment of 85°C with 85% relative
humidity for 240 hours min.
LIFE TEST:
RETRACE:
Less than ±(0.02% or 0.02 pF), whichever is greater
AGING EFFECTS:
None
PIEzOELECTRIC EFFECTS:
None
(No capacitance variation with voltage or pressure)
CAPACITANCE DRIFT:
±(0.02% or 0.02 pF), whichever is greater
OPERATING TEMPERATURE RANGE:
From -55°C to +125°C
TERMINATION STYLE:
See Mechanical Configurations, page 3
TERMINAL STRENGTH:
Terminations for chips withstand a pull of 10
lbs. min., 25 lbs. typical, for 5 seconds in direction perpendicular
to the termination surface of the capacitor. Test per MIL-STD-202,
method 211.
MIL-STD-202, Method 108, for 2000 hours, at 125°C.
Voltage applied.
120% of WVDC for capacitors rated at 1250 volts DC or less.
100% of WVDC for capacitors rated above 1250 volts DC
ISO 9001
REGISTERED
COMPANY
ATC # 001-1077 Rev. M, 6/13
ATC 800 E Capacitance Values
CAP.
CODE
3R3
3R6
3R9
4R3
4R7
5R1
5R6
6R2
6R8
7R5
8R2
9R1
100
110
120
130
150
160
180
200
220
240
270
300
330
CAP.
(pF)
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
9.1
10
11
12
13
15
16
18
20
22
24
27
30
33
TOL.
RATED WVDC
CAP.
CODE
360
390
430
470
510
560
620
680
750
820
910
101
111
121
131
151
161
181
201
221
241
271
301
331
361
CAP.
(pF)
36
39
43
47
51
56
62
68
75
82
91
100
110
120
130
150
160
180
200
220
240
270
300
330
360
TOL.
RATED WVDC
CAP.
CODE
391
431
471
511
561
621
681
751
821
911
102
112
122
132
152
162
182
202
222
242
272
302
332
392
472
512
CAP.
(pF)
390
430
470
510
560
620
680
750
820
910
1000
1100
1200
1300
1500
1600
1800
2000
2200
2400
2700
3000
3300
3900
4700
5100
TOL.
RATED WVDC
3600
B, C, D
7200
F, G, J, K
2500
7200
F, G, J, K
F, G, J, K
3600
G, J, K
2000
CAPACITANCE TOLERANCE
J
B
C
D
F
G
K
Code
±0.1 pF ±0.25 pF ±0.5 pF ±1% ±2% ±5% ±10%
Tol.
ATC PART NUMBER CODE
ATC800 E 22 0 J TN 7200 X
Series
Case Size
Capacitance Code:
First 2 significant digits for capacitance.
R=Decimal Point
Indicates number of zeros following digits
of capacitance in picofarads except for decimal values.
Capacitance Tolerance
Termination Code
Packaging
C - ATC Matrix Tray (Standard)
T - Tape and Reel, 250 pc. qty.
I - Special Packaging (Consult Factory)
Laser Marking
C
WVDC
The above part number refers to a 800 E Series (case size E) 22 pF capacitor, J tolerance (±5%), 7200 WVDC,
with TN termination (Tin Plated over Non-Magnetic Barrier Termination), laser marking and plastic Matrix Tray packaging.
ATC accepts orders for our parts using designations with or without the
“ATC” prefix. Both methods of defining the part number are equivalent, i.e.,
part numbers referenced with the “ATC” prefix are interchangeable to parts
referenced without the “ATC” prefix. Customers are free to use either in
specifying or procuring parts from American Technical Ceramics.
For additional information and catalogs contact your ATC
representative or call direct at (631) 622-4700.
Consult factory for additional performance data.
C E R A M I C S
ATC North America
631-622-4700
•
sales@atceramics.com
A M E R I C A N
ATC Europe
+46 8 6830410
•
sales@atceramics-europe.com
T E C H N I C A L
ATC Asia
86-755-2396-8759
•
sales@atceramics-asia.com
2
w w w . a t c e r a m i c s . c o m
ATC 800 E Capacitors: Mechanical Configurations
ATC
SERIES
& CASE
SIzE
ATC
CASE SIzE
TERM. & TYPECASE SIzE
CODE
& TYPE
OUTLINES
W/T IS A
TERMINATION SURFACE
Y
BODY DIMENSIONS
INCHES (mm)
LENGTH
(L)
.380
+.015 -.010
(9.65
+0.38 -0.25)
TL
LEAD AND TERMINATION
DIMENSIONS AND MATERIALS
OVERLAP
(Y)
.040 (1.02)
max.
MATERIALS
WIDTH
(W)
THICKNESS
(T)
800 E
T
E
Solderable Nickel
Barrier
E
W
L
T
Tin Plated over
Nickel Barrier Termination
RoHS Compliant
LL
WL
W
L
800 E
MS
Microstrip
E
T
LL
WL
W
L
TL
800 E
AR
Axial Ribbon
.380
+.015 -.010 .190 (4.83)
(9.65
max.
.380
+.035 -.010 +0.38 -0.25)
(9.65
+0.89
-0.25)
N/A.
T
LL = .750 (19.05) min.
WL = .350 ±.010
(8.89 ±0.25)
TL = .010 ±.005
(0.25 ±0.13)
Leads are Attached with
High Temperature Solder
High Purity
Silver Leads
Custom lead styles and lengths are available; consult factory. All leads are high purity silver attached with high temperature solder and are
RoHS
compliant.
ATC 800 E Non-Magnetic Capacitors: Mechanical Configurations
ATC
SERIES
& CASE
SIzE
ATC
TERM.
CODE
CASE SIzE
& TYPE
OUTLINES
W/T IS A
TERMINATION SURFACE
Y
BODY DIMENSIONS
INCHES (mm)
WIDTH
(W)
LEAD AND TERMINATION
DIMENSIONS AND MATERIALS
OVERLAP
(Y)
.040 (1.02)
max.
MATERIALS
LENGTH
(L)
.380
+.015 -.010
(9.65
+0.38
-0.25)
THICKNESS
(T)
800 E
TN
Non-Mag
Solderable Barrier
E
E
RoHS Compliant
Tin Plated over
Non-Magnetic
Barrier Termination
W
L
T
TL
LL
800 E
MN
Non-Mag
Microstrip
E
WL
L
W
T
LL
WL
W
L
TL
800 E
AN
Non-Mag
Axial Ribbon
.380
+.015 -.010 .190 (4.83)
(9.65
max.
.380
+.035 -.010 +0.38 -0.25)
(9.65
+0.89
-0.25)
N/A.
T
LL = .750 (19.05) min.
WL = .350 ±.010
(8.89 ±0.25)
TL = .010 ±.005
(0.25 ±0.13)
Leads are Attached with
High Temperature Solder.
High Purity
Silver Leads
Custom lead styles and lengths are available; consult factory. All leads are high purity silver attached with high temperature solder and are
RoHS
compliant.
ATC 800 E Capacitors: Suggested Mounting Pad Dimensions
L
L
2
T
W
W
2
0
T
220J
Horizontal
Electrode Orientation
B
J
Case E
Pad Size
A Min.
.205
.185
.405
.385
B Min.
.050
.030
.050
.030
C Min.
.325
.325
.325
.325
D Min.
.425
.385
.425
.385
Normal
High Density
Normal
High Density
Vertical
Electrode Orientation
B
Vertical Mount
Horizontal Mount
A
C
D
ATC North America
631-622-4700
•
sales@atceramics.com
A M E R I C A N
ATC Europe
+46 8 6830410
•
sales@atceramics-europe.com
T E C H N I C A L
ATC Asia
86-755-2396-8759
•
sales@atceramics-asia.com
C E R A M I C S
w w w . a t c e r a m i c s . c o m
3
ATC 800 E Performance Data
800 E ESR vs. Frequency
100
ESR (MilliOhms)
10
10 pF
12 pF
39 pF
47 pF
ESR (MilliOhms)
220 pF
330 pF
750 pF
5100 pF
(Typical)
1
1
10
100
1000
Frequency (MHz)
10000
800 E FSR vs. Capacitance
1000
Frequency (MHz)
100
(Typical)
10
1
10
100
1000
10000
Capacitance (pF)
ATC North America
631-622-4700
•
sales@atceramics.com
A M E R I C A N
ATC Europe
+46 8 6830410
•
sales@atceramics-europe.com
T E C H N I C A L
ATC Asia
86-755-2396-8759
•
sales@atceramics-asia.com
C E R A M I C S
4
w w w . a t c e r a m i c s . c o m
ATC 800 E Performance Data
100
800E Current Ratings vs. Capacitance
The current is based on a 65
o
C mounting surface and a
device thermal resistance of 12
o
C/W. A power dissipation
of 5 W will result in a case temperature of 125
o
C
10
RMS Current (Amps)
30 MHz
10 MHz
1
2 MHz
(Typical)
0
1
10
100
Dotted line = Power dissipation
limit
Solid line = Voltage limit
(Vrms/Xc
Solid line = Voltage limit
(Vrms/Xc)
)
1000
10000
Capacitance (pF)
1
0.8
0.6
0.4
TCC= 0 ±30 PPM/C
800E Capacitance Change vs. Temperature
% Change in Capacitance
0.2
0
-0.2
-0.4
-0.6
-0.8
-1
-55
-35
-15
5
25
45
65
85
105
125
Temperature (Degrees C)
Sales of ATC products are subject to the terms and conditions contained in American Technical Ceramics Corp. Terms and Conditions of Sale (ATC document
#001-992 Rev. B; 12/05). Copies of these terms and conditions will be provided upon request. They may also be viewed on ATC's website at www.atceramics.
com/productfinder/default.asp. Click on the link for Terms and Conditions of Sale.
ATC has made every effort to have this information as accurate as possible. However, no responsibility is assumed by ATC for its use, nor for any infringements of
rights of third parties which may result from its use. ATC reserves the right to revise the content or modify its product without prior notice.
[i=s]This post was last edited by w494143467 on 2021-6-14 17:01[/i]1. Introduction
When it comes to data communication between devices, I was struggling between Mesh and broadcast, but in the end I ch...
PowerWorldonsemi and Avnet IoT Innovation Design Competition
I'm doing a small assignment recently, which is to display pictures on msp430f6638. I've never learned this before. Can anyone help me with the program?...
I would like to ask about the situation of Class D power amplifier and linear power amplifier. What signals are they used to amplify and how are they designed?...
[hide] Single-electrode chips have very high requirements for die bonding in the packaging industry. For example, in the LED production process, the quality of die bonding affects the quality of LED f...
Luminary's 9Bxx series adds EPI (Enhanced Parallel Interface). Do you have any experience using it? What are the advantages of EPI over the traditional parallel port? What are the application scenario...
The core of a machine vision system is image acquisition and processing. All information comes from images, and image quality is crucial to the entire vision system. A good image can improve the st...[Details]
There are many different ways of human-computer interaction. The more common ones are listed below:
Mouse interaction: Using a mouse to operate a computer and interact was the most common human...[Details]
Tesla and BYD, vying for dominance in the global electric vehicle market, are reportedly considering adopting Samsung's AMOLED (active-matrix organic light-emitting diode) technology for their next...[Details]
How do you know if a machine is operating properly? The answer: by leveraging deep learning to detect anomalies in routine vibration data from industrial machines. Anomaly detection has many uses, ...[Details]
introduction
With the development of digital and network technologies, broadcasting technology has become increasingly diversified, with the most significant trend being the transition from an...[Details]
As the number of cars increases, environmental pressures are also increasing. At this time, some people are saying that new energy vehicles are energy-efficient and environmentally friendly, and ar...[Details]
1 Introduction
In the mid-1960s, American scientist Maas conducted extensive experimental research on the charging process of open-cell batteries and proposed an acceptable charging curve for ...[Details]
As the scale and business applications of national e-government networks continue to expand, the data and services transmitted over them are becoming increasingly sensitive and critical. To protect...[Details]
Normally, we determine our location and where we want to go by comparing our surroundings with observation and simple GPS tools. However, this kind of reasoning is very difficult for self-driving c...[Details]
With the support and encouragement of national policies, some Internet car manufacturers have also joined the new energy vehicle manufacturing industry. From the perspective of new car manufacturer...[Details]
On August 21, according to a report by Korean media SEDaily yesterday, according to semiconductor industry sources, the HBM4 samples provided by Samsung to Nvidia last month have passed initial tes...[Details]
Qiangmao, your trusted semiconductor solutions partner, sincerely invites you to visit Electronics India 2025, South Asia's leading trade show for electronic components, systems, applications...[Details]
Most cameras on the market use chips manufactured by Japanese companies like Sony, Sharp, Panasonic, and LG. South Korea now has the capability to produce chips, but the quality is somewhat inferio...[Details]
introduction
In recent years, with the increasing number of high-rise buildings, the demand for elevators has also increased. Currently, the elevators we use most often use LED dot array displ...[Details]
Which is better, copper braided wire flexible connector or copper stranded wire flexible connector? When choosing copper wire flexible connector, people always struggle with whether to use copper b...[Details]
onsemi and Avnet IoT Innovation Design Competition
京公网安备 11010802033920号
EEWORLD
